A-Z of Biorefinery: A Comprehensive View provides a comprehensive book that highlights and illustrates important topics relating to biorefineries, including associated theory, current and future research trends, available techniques and future challenges. This book will benefit a wide range of audiences, including students, engineers, scientists, practitioners, and those who are keen to explore more on biorefinery. Sections cover the availability of current technologies, constraints, market trends, recent system developments, and the concepts that enable modern biorefineries to utilize all kinds of biomass. This book is an essential resource for students, scientists, engineers and practitioners working in industry and academia.
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Table of Contents
Section 1�Overview of A-Z of Biorefinery: A comprehensive view 1. Overview of biorefinery
Section 2 Biomass and Biobased Products 2. Whole crop feedstocks�in biorefinery: A common classification�
3. Lignocellulosic�biomass and its potential derivative products
4. Algal based feedstocks
5. Waste�and residues streams as feedstocks�
6. Bioresources and biofuels -�From classical to perspectives and trends
7. Key enzimes in biorefinery
8.�Technology toward biochemical precursors and bioplastic production
9. Fine specialty chemicals for food and feed applications
Section 3 Conversion of biomass to high-value products� 10.�Gasification/pyrolysis/torrefaction
11. Thermal, hydrothermal liquefaction, and electromagnetic processes for biomass conversion
12.�Progress and challenges for microbial fermentation processes within the biorefinery context
13.�Consolidated bioprocessing for ethanol and butanol production from lignocellulosic biomass: Recent advances in strain and process engineering
Section 4 Downstream recovery and separation 14. Overview of downstream product recovery technology in biorefinery
15. Key unit operations in biorefinery processes
Section 5 Process creation, design and analysis 16. Sustainable biorefinery process synthesis, design, and simulation: Systematic computer aided methods and tools
17. Consequential life cycle assessment: Evaluating the environmental impact of dairy manure treatment using thermochemical conversion technologies
Section 6 Tools and complete case studies 18. Complete design case study for pulp and paper industry
19. Conceptual design of sugarcane biorefinery upgrading molasses to value-added chemicals
20. Superstructure optimization of microalgal biorefinery producing biodiesel
21. Perspectives, challenges and future directions
Authors
Nuttha Thongchul Deputy Director, Institute of Biotechnology and Genetic Engineering, Chulalongkorn University, Thailand. Dr. Nuttha Thongchul is Associate Professor of Institute of Biotechnology and Genetic Engineering and Adjunct Professor of Biotechnology Program at Chulalongkorn University, Thailand. She is also serving on as the committee members of technical experts in Biobased Industries under the Act Strategic Based Investment commissioned by Board of Investment (BOI) of Thailand. Dr. Thongchul received her B.Eng. degree in Chemical Engineering from Chulalongkorn University (Thailand), M.Eng. in Bioprocess Technology from Asian Institute of Technology (Thailand), and Ph.D. degree in Chemical Engineering from The Ohio State University (USA). Her research interest includes biotechnology, bioengineering, and bioprocessing with emphasis on novel fermentation and bioseparation process design as well as biobased industrial production platform development for production of value-added products. She is currently a member of American Institute of Chemical Engineers (AIChE) and serves on as the area chair in Food under Food, Pharmaceutical, and Bioengineering Division.Dr. Antonis Kokossis is Full Professor in Process Systems Engineering, School of Chemical Engineering, National Technical University of Athens, Greece. He is now serving as the co-director of the National Technology Platform for Sustainable Chemistry, a National Representative of Directorate I (Climate Change & Environment), Affiliate of IEA Bioenergy and EERA Bioenergy, and the Greek Delegate of the Computer Aided Process Engineering (CAPE) group of EFCE. Dr. Kokossis received his Diploma in Chemical Engineering from National Technical University of Athens, Greece and Ph.D. degree in Chemical Engineering from Princeton University (USA). His expertise includes process systems design, modelling, process integration, and optimization. He published academic papers extensively and has consulted with the process industry including UOP, Bayer, Mitsubishi, Eastman, MW Kellogg, BP Oil, Uniliver and more recently, with biorefineries and small companies on renewables. Antonis Kokossis School of Chemical Engineering, National Technical University of Athens, Greece. He is now serving as the co-director of the National Technology Platform for Sustainable Chemistry, a National Representative of Directorate I (Climate Change & Environment), Affiliate of IEA Bioenergy and EERA Bioenergy, and the Greek Delegate of the Computer Aided Process Engineering (CAPE) group of EFCE. Dr. Kokossis received his Diploma in Chemical Engineering from National Technical University of Athens, Greece and Ph.D. degree in Chemical Engineering from Princeton University (USA). His expertise includes process systems design, modelling, process integration, and optimization. He published academic papers extensively and has consulted with the process industry including UOP, Bayer, Mitsubishi, Eastman, MW Kellogg, BP Oil, Uniliver and more recently, with biorefineries and small companies on renewables. Suttichai Assabumrungrat Full Professor of Chemical Engineering, Faculty of Engineering at Chulalongkorn University, Thailand. Dr. Suttichai Assabumrungrat is Full Professor of Chemical Engineering, Faculty of Engineering at Chulalongkorn University, Thailand. Dr. Assabumrungrat received his B.Eng. degree (1st class honor) in Chemical Engineering from Chulalongkorn University (Thailand), M.Sc. (Distinction) in Advanced in Chemical Engineering, and Ph.D. degree in Chemical Engineering from Imperial College, London (UK). His research interest includes multifunctional reactors, reactive distillation, and fuel cell.